提高脑卒中后上肢功能使用的基于加速度计的测量：机器学习与计数阈值法的比较。

Improving Accelerometry-Based Measurement of Functional Use of the Upper Extremity After Stroke: Machine Learning Versus Counts Threshold Method.

机构信息

The Catholic University of America, Washington, DC, USA.

MedStar National Rehabilitation Network, Washington, DC, USA.

出版信息

Neurorehabil Neural Repair. 2020 Dec;34(12):1078-1087. doi: 10.1177/1545968320962483. Epub 2020 Nov 5.

DOI:10.1177/1545968320962483

PMID:33150830

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7704838/

Abstract

BACKGROUND

Wrist-worn accelerometry provides objective monitoring of upper-extremity functional use, such as reaching tasks, but also detects nonfunctional movements, leading to ambiguity in monitoring results.

OBJECTIVE

Compare machine learning algorithms with standard methods (counts ratio) to improve accuracy in detecting functional activity.

METHODS

Healthy controls and individuals with stroke performed unstructured tasks in a simulated community environment (Test duration = 26 ± 8 minutes) while accelerometry and video were synchronously recorded. Human annotators scored each frame of the video as being functional or nonfunctional activity, providing ground truth. Several machine learning algorithms were developed to separate functional from nonfunctional activity in the accelerometer data. We also calculated the counts ratio, which uses a thresholding scheme to calculate the duration of activity in the paretic limb normalized by the less-affected limb.

RESULTS

The counts ratio was not significantly correlated with ground truth and had large errors ( = 0.48; = .16; average error = 52.7%) because of high levels of nonfunctional movement in the paretic limb. Counts did not increase with increased functional movement. The best-performing intrasubject machine learning algorithm had an accuracy of 92.6% in the paretic limb of stroke patients, and the correlation with ground truth was = 0.99 ( < .001; average error = 3.9%). The best intersubject model had an accuracy of 74.2% and a correlation of =0.81 ( = .005; average error = 5.2%) with ground truth.

CONCLUSIONS

In our sample, the counts ratio did not accurately reflect functional activity. Machine learning algorithms were more accurate, and future work should focus on the development of a clinical tool.

摘要

背景

腕部加速度计可客观监测上肢功能活动，如伸手任务，但也会检测到非功能活动，从而导致监测结果存在歧义。

目的

比较机器学习算法与标准方法（计数比），以提高检测功能活动的准确性。

方法

健康对照者和脑卒中患者在模拟社区环境中进行非结构化任务（测试持续时间=26±8 分钟），同时同步记录加速度计和视频。人类注释者对视频的每一帧进行功能或非功能活动评分，提供真实数据。开发了几种机器学习算法来分离加速度计数据中的功能和非功能活动。我们还计算了计数比，该方法使用阈值方案计算正常侧和患侧上肢活动的持续时间。

结果

计数比与真实数据无显著相关性，且误差较大（ = 0.48； =.16；平均误差=52.7%），因为患侧上肢存在大量非功能运动。计数并没有随着功能运动的增加而增加。表现最好的个体内机器学习算法在脑卒中患者的患侧上肢的准确率为 92.6%，与真实数据的相关性为 = 0.99（<.001；平均误差=3.9%）。表现最好的个体间模型的准确率为 74.2%，与真实数据的相关性为 =0.81（ =.005；平均误差=5.2%）。

结论

在我们的样本中，计数比不能准确反映功能活动。机器学习算法更准确，未来的工作应集中于开发临床工具。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6edc/7705643/b80350240090/10.1177_1545968320962483-fig1.jpg

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提高脑卒中后上肢功能使用的基于加速度计的测量：机器学习与计数阈值法的比较。

Improving Accelerometry-Based Measurement of Functional Use of the Upper Extremity After Stroke: Machine Learning Versus Counts Threshold Method.

机构信息

出版信息

BACKGROUND

OBJECTIVE

METHODS

RESULTS

CONCLUSIONS

背景

目的

方法

结果

结论

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